Figures

- Farnesylation or geranylgeranylation? Efficient assays for testing protein prenylation in vitro and in vivo

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Figure 1. Western blots and TLC scanning results for Rap2A with radioactive prenyl anchor precursors. Western Blot and corresponding scans from TLC linear analyzer of wildtype GST-Rap2A-fusion protein translated with [3H]mevalonic acid (lane 1), GST-Rap2A C180A with [3H]mevalonic acid (lane 2), GST-Rap2A with [3H]FPP (lane 3) and GST-Rap2A with [3H]GGPP (lane 4). There is significant incorporation of a product of mevalonic acid (lane 1) as well as FPP (lane 3), while incorporation of GGPP is close to the detection limit (lane 4), suggesting that Rap2A is primarily a farnesylation target.

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Figure 2. Autoradiographs of Rap2A after exposure to radioactive prenyl anchor precursors. Fluorography of GST-Rap2A-fusion protein on a Western membrane after treatment with En3Hance-spray (2-methyl-naphtalene, Perkin-Elmer), showing a protein size marker in lane 1, wildtype GST-Rap2A translated with [3H]mevalonic acid in lane 2, GST-Rap2A C180A with [3H]mevalonic acid in lane 3, GST-Rap2A with [3H]FPP in lane 4 and GST-Rap2A with [3H]GGPP in lane 5. A) film after exposure for 7 days, B) film after exposure for 20 days at -80°C. There is no sign of incorporation of GGPP as detected with the TLC-scanner, underscoring the higher sensitivity of our new method. It should be noted that it is difficult to evenly spread the En3Hance-substance over all membrane area. Therefore, it is not surprising that the relative signal intensities are not identical between TLC scanning and autoradiography.

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Figure 3. Western blots and TLC scanning results for Rap2A incubated with prenyltransferase inhibitors. Western Blot and corresponding scans from TLC linear analyzer of wildtype GST-Rap2A-fusion protein translated with [3H]FPP (lane 1), with [3H]FPP and 50 μM FTI-277 (lane 2), with [3H]GGPP (lane 3), with [3H]GGPP and 50 μM FTI-277 (lane 4), and with [3H]GGPP and 50 μM GGTI-298 (lane 5). There is no incorporation of FPP with FTI (lane 2), and there is also no incorporation of GGPP with FTI (lane 4), while a hardly detectable signal remains with GGTI (lane 5), suggesting that Rap2A is recognized only by farnesyltransferase. However, the enzyme shows some cross-reactivity with GGPP.

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Figure 4. Western blots and TLC scanning results for RasD2 with radioactive prenyl anchor precursors. Western Blot and corresponding scans from TLC linear analyzer of wildtype GST-RasD2-fusion protein translated with [3H]mevalonic acid (lane 1), GST-RasD2 C263A with [3H]mevalonic acid (lane 2), GST-RasD2 with [3H]FPP (lane 3) and GST-RasD2 with [3H]GGPP (lane 4). There is significant incorporation of a product of mevalonic acid (lane 1) as well as FPP (lane 3), while incorporation of GGPP is close to the detection limit (lane 4), suggesting that RasD2 is recognized primarily by the FTase.

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Figure 5. Western blots and TLC scanning results for v-Ki-Ras2 (K-Ras-4B) with radioactive prenyl anchor precursors. Western Blot and corresponding scans from TLC linear analyzer of wildtype GST-v-Ki-Ras2-fusion protein translated with [3H]mevalonic acid (lane 1), GST- v-Ki-Ras2 C185A with [3H]mevalonic acid (lane 2), GST-K-Ras with [3H]FPP (lane 3) and GST-K-Ras with [3H]GGPP (lane 4). There is incorporation of a product of mevalonic acid (lane 1) and FPP (lane 3) and also a reduced but noticeable amount of GGPP (lane 4), supporting the view of alternative geranylgeranylation of K-Ras in the absence of farnesylation.

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Figure 6. Western blots and TLC scanning results for RhoA63L with radioactive prenyl anchor precursors. Western Blot and corresponding scans from TLC linear analyzer of wildtype GST-RhoA63L-fusion protein translated with [3H]mevalonic acid (lane 1), GST-RhoA63L mutant C190S with [3H]mevalonic acid (lane 2), GST-RhoA63L with [3H]FPP (lane 3) and GST-RhoA63L with [3H]GGPP (lane 4). There is significant incorporation of a product of mevalonic acid (lane 1) as well as of GGPP (lane 4). The signal for FPP attachment is reduced, although more protein is detected (lane 3). This confirms GGPP as preferred substrate.

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Figure 7.Mobility changes of the prenylated protein form: Immunoblot analysis of Rap2A. Western blot analysis has been performed on lysates of exponentially growing cells. U denotes the unmodified, P the prenylated form of Rap2A. A) HeLa cells have been transiently transfected with HA-Rap2A (lanes 1–4). Upon treatment with lovastatin (lane 2), the signal representing prenylated (p) Rap2A disappeared. This effect could be reversed by adding FPP (lanes 3 and 4), but not by adding GGPP (data not shown). B) HeLa cells have been transiently transfected with HA-Rap2A (lanes 2 and 3) or HA-Rap2A with a cysteine-to-alanine mutation within the C-terminal CAAX prenylation motif (lane 1, mutation C180A). The mutation and also the lovastatin treatment prevent the prenylation of HA-Rap2A.

A) GFP-Rap2A, GFP-RasD2 and GFP-v-Ki-Ras2 are membrane-localized with (4, 8, 12) or without (1, 5, 9) GGTI-298 treatment. Mutation of the Cys in the CaaX box (2, 6, 10) or treatment with FTI-277 (3, 7, 11) cause mislocalization and accumulation of the fusion proteins in the nucleus.

B) GFP-RhoA is membrane localized with (15) or without (13) FTI-277 treatment. Mutation of the Cys in the CaaX box (14) or treatment with GGTI-298 (16) cause mislocalization and accumulation of RhoA in the nucleus.

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Figure 9. Western blots and TLC scanning results for Rap2A with radioactive FPP in vivo. Western Blot and corresponding scans from TLC linear analyzer of wild-type HA-Rap2A-fusion protein (lane 1) and HA-Rap2A C180A (lane 2) immunoprecipitated from HeLa-cells, treated with lovastatin after transfection with the respective plasmid construct and exposed to 3H-FPP. There is significant incorporation of FPP into the wild-type protein (lane 1), but no signal is detected for the C180A mutant (lane 2), demonstrating the applicability of the approach for in vivo labeling experiments.